This proposed Small Business Innovative Research (SBIR) Phase II project is to develop, prototype and commercialize a Green Rooftop Technology with superior building energy efficiency to significantly reduce energy consumption of our nationâ€™s industrial and commercial buildings. Besides, this proposed technology can significantly extend the lifespan of current building rooftop materials to ...

This green approach to manufacturing plastic with decorative chrome will eliminate health and environmental hazards from the chrome electroplating process. The US and global market for decorative chrome on plastic is12 million m2/year and 84 million m2/year respectively, with 80% in automobile trim, 10% in appliances and 10% in sanitary fixtures. Without a viable commercial alternative, US provide ...

Advances in materials and automation are rapidly reshaping the American manufacturing economy, and must be embraced to sustain a strong manufacturing sector in the United States. Additive manufacturing is possibly the fastest growing example of this trend, growing at an astonishing compound annual growth rate of 25.7%. The plastic materials market for additive manufacturing, valued at $700M in 202 ...

Current petroleum-derived-plastics contain additives such as phthalates or bisphenolA that are harmful to human health and the environment. Thus, it’s critical to replace such toxic non-biodegradable plastics with biodegradable bioplastics. To meet bioplastics production need, Altex, and Texas A&M University (TAMU) have teamed up to utilize renewable biomass, such as forest residue, agricultural ...

In the Phase II project, METSS will continue the development of a safe, robust, rapid, and effective chlorine dioxide (ClO2) gas dispersion system to be used for on-site room decontamination in hospital and non-hospital settings. The heart of the decontamination system is a proprietary ClO2 generating micro-reactor technology that is used to quickly and safely generate ClO2 on-site. This technolog ...

Polyfluoroalkyl substances (PFAS) are used in food packaging, as coatings for cloth (e.g. Scotchgard), firefighting foams, electronics, and industrial and automotive components. Being perfluorinated species, they are engineered to breakdown slowly (half-life >92 years in water), and thus persist for very long times. Their high water-solubility makes them especially dangerous, and much like perchlo ...

To reach the end user, oil and gas production at the wellhead must be transmitted through the country and distributed to a wide range of customers. This logisticalsystem requires natural gas gathering lines, processing facilities,product storage tanks and Jots of other equipment. What results is air pollution caused by industry losses during these operations and the use of continuous or intermitte ...

Manufacture and disposal of poly- and perfluoroalkyl substance (PFAS) containing-products including the historical use of aqueous film forming foam (AFFF) formulations containing PFAS has resulted in PFAS contamination of numerous water supplies. Recent reports indicate the Air Force alone is expecting to spend > $2.25 billion for cleanup for PFAS-contaminated sites. Our technology, based on the g ...

New regulations and advisory levels for perfluoroalkyl substances have resulted in increased drinking water treatment costs or abandonment of drinking water sources. Treatment technologies are needed that can achieve low parts-per-trillion levels. Presently, there are insufficient treatment technologies that can destructively remove perfluorooctanoic acid (PFOA) and/or perfluorooctane sulfonic aci ...

Perfluoroalkyl substances (PFASs) have been identified as a serious health contaminant in water at levels between 12 and 516 parts per trillion by the Agency for Toxic Substances & Disease Registry. In 2016, the EPA set a lifetime health advisory of 70 parts per trillion for two PFASs, perfluorooctanoic acid (PFOA) and perfluorooctane sulfonic acid (PFOS). These compounds come from a variety of so ...